UTILIZATION OF MAGNETIC WATER TECHNOLOGY TO IMPROVE WATER QUALITY AND GROWTH PERFORMANCE OF FISH
Said, A., El-Shazly, M., Hassan, A., Zedan, A. (2022). UTILIZATION OF MAGNETIC WATER TECHNOLOGY TO IMPROVE WATER QUALITY AND GROWTH PERFORMANCE OF FISH. EKB Journal Management System, 39(3), 449-458. doi: 10.21608/mjae.2022.135864.1072
Amr E. Said; Mahmoud A. El-Shazly; Ahmed A. Hassan; AbdelTawab M. I. Zedan. "UTILIZATION OF MAGNETIC WATER TECHNOLOGY TO IMPROVE WATER QUALITY AND GROWTH PERFORMANCE OF FISH". EKB Journal Management System, 39, 3, 2022, 449-458. doi: 10.21608/mjae.2022.135864.1072
Said, A., El-Shazly, M., Hassan, A., Zedan, A. (2022). 'UTILIZATION OF MAGNETIC WATER TECHNOLOGY TO IMPROVE WATER QUALITY AND GROWTH PERFORMANCE OF FISH', EKB Journal Management System, 39(3), pp. 449-458. doi: 10.21608/mjae.2022.135864.1072
Said, A., El-Shazly, M., Hassan, A., Zedan, A. UTILIZATION OF MAGNETIC WATER TECHNOLOGY TO IMPROVE WATER QUALITY AND GROWTH PERFORMANCE OF FISH. EKB Journal Management System, 2022; 39(3): 449-458. doi: 10.21608/mjae.2022.135864.1072

UTILIZATION OF MAGNETIC WATER TECHNOLOGY TO IMPROVE WATER QUALITY AND GROWTH PERFORMANCE OF FISH

Misr Journal of Agricultural Engineering
Article 6, Volume 39, Issue 3, July 2022, Page 449-458  XML PDF (710.78 K)
Document Type: Original Article
DOI: 10.21608/mjae.2022.135864.1072
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Authors
Amr E. Said1; Mahmoud A. El-Shazly2; Ahmed A. Hassan3; AbdelTawab M. I. Zedan email orcid 4
1Researcher, Central Lab of Aquaculture Research. Ag. Res. Center, Giza, Egypt.
2Emeritus Prof. of Ag. Eng., Ag. Eng. Dept., Fac. Ag., Zagazig U. Egypt.
3Senior Researcher, Central lab of Aquaculture Research. Ag. Res. Center, Giza, Egypt.
4Assoc. Prof. of Irrigation and Drainage Eng., Ag. Eng. Dept., Fac. of Ag., Zagazig U., Egypt.
Abstract
The present study was designed to investigate the effect of magnetic water technique and different stocking density on water quality parameters and growth performance of Nile tilapia (Oreochromis niloticus) and Common carp (Cyprinus carpio). Magnetic water at 14500 gausses (1.45 Tesla) was used compared with normal water (0 gauss) for experimental groups of fish which reared with three different levels of stocking density 12, 25, 50 fish/m3 and each group was replicated with an average initial weight 10 g/fish. Experimental fish were fed on commercial diet (25 % protein). The fish tanks were supplied with aeration and filtration systems. At the end of the experiment, the results indicated that water quality and growth performance improved significantly (P<0.05) in magnetic water treatment compared to the normal water with different stocking densities. The results recorded that dissolved oxygen, pH and total hardness values in magnetic water increased in comparison with the normal water, but ammonia was inversely related to magnetic field, while total alkalinity and water temperature were not affected by treatment. The data revealed that growth performance, water quality improved and significantly in magnetic water treatment between different stocking densities, and pointed that, the stocking density of 12 fish/m3 with magnetized water was the best treatment. Results indicated that fish reared in magnetic water treatment improved significantly (P<0.05) compared to those in the normal water with different stocking densities. In shortly, applying magnetic water on aquaculture definitely on Nile tilapia and Common carp farming improves growth performance.
Keywords
Nile tilapia; Common carp; Stocking density; Magnetic water; Growth performance
References
Abdo, M.H., (1998).  Some Environmental Studies on the River Nile and Ismailia Canal in Front of the Industrial Area of Shoubra El-Khemia. M.Sc. Thesis, Fac. Sci., Ain Shams Univ.

Al Hilali, A.H. (2018). Effect of magnetically treated water on physiological and biochemical blood parameters of Japanese Quai. International Journal of Poultry Science, 7(2):78-84.

Alabdraba, W.M.; Albayata, M.B.; Radeef, A.Y. and Rejab, M.M. (2013). Influence of magnetic field on the efficiency of the coagulation process to remove turbidity from water'. Int. Rev. Chem. Eng., 5:1-8.

Ali, Y.; Samaneh, R.; Zohre, R.and Mostafa, J. (2014). Magnetic water treatment in environmental management': A review of the recent advances and future perspectives. Current World Environment, 9(3):1008-1016.

APHA, American public Health Association (APHA) (2000). Standard methods for the examination of water and waste water 16th ed., Washington, D.C.

Cai, R; Yang, H., He. J.and Zhu, W. (2009). The effect of magnetic fields on water molecular hydrogen bonds '. Journal of Molecular Structure, 939(1):15-19.

Carbajal-Hernandez, J. J., L. P. Sanchez-Fernandez, L. a. Villa-Vargas, J. A. Carrasco-Ochoa and J. F. Martínez-Trinidad. (2013). Water quality assessment in shrimp cultureusing an analytical hierarchical process. Ecological Indicators, 29, 148–158.

Duncan, D.B. (1955). Multiple range and multiple F. test. Biometrics. II: 1-42.

Ebrahim, S.A and Azab,A.E. (2017). Biological Effects of magnetic water on human and animals'. Biomedical Sciences, 3(4):78-85.

El-Hanoun, A.M.; Fares,W.A.; Attia,Y.A. and Abdella ,M.M. (2017). Effect of magnetized well water and blood components, immune indices and semen quality of Egyptian male geese'. Egypt Poult.Sci., 37(IV):1187-1202.

Fadil, O., S. Johan and Zularisham (2001). Application of magnetic field to enhance wastewater treatment process. The 8th Joint Int. Conf. Jan. 7-11. San Antonio, Texas: IEEE.

Hassan, S.; Sulaiman, M.; Abdul Rahman, R. and Kamaruddin, R. (2018a). Effect of long term and continuous magnetic field exposure on the water properties, growth performance, plasma biochemistry and body composition of Tilapia in a recirculating aquaculture system. Aquaculture Engineering, 83:76 -84.

Hassan, S.M. and Abdul Rahman, R. (2016). Effect of exposure to magnetic field on water   properties   and   hatchability   of   Artemia   salina.'.   ARPN   Journal   of Agriculture and Biological Sciences,11(11):416-423.

Hassan, S.M.; Rahman, R.A.; Kamaruddin R.H. and Madlul, N.S. (2018b). Effect of exposure of African cat fish (clarias batrachus) to magnetic field on water properties and egg hatching'. Borneo Journal of Marine Science and Aquaculture, 2: 54-59.

Hassan, S.M.; Ridzwan, A.R.; Madlul, N.S. and Umoruddin, N.A. (2018c). Exposure effect of magnetic field on water properties in recirculation aquaculture systems (RAS). Iraqi journal of Agricultural Sciences, 49(6): 1018-1031.

Hassan, S.M.; Sulaiman, M.; Madlul, N.; Fadel, A.H. and Abdul Rahman, R. (2019). Influence of continuous magnetic field exposure on water properties and subsequent effects on the growth performance, plasma biochemistry, nutritive value and liver histopathology of Jade perech scortum barcoo in a recirculating system' .Aquaculture Research :1-11.

Hasson, D. and Bramson, D. (1985). Effectiveness of magnetic water treatment in suppressing calcium carbonate scale deposition. Industrial and Engineering Chemistry Process Design and Developmental, 24(3): 588.592.

Houlihan, D.; Boujard, D. and Jobling, M. (2001) Food intake in fish. Wiley-Black Well Science, 1-448.

Hussein, A.S.; Iwaid, A.K.; Jabir, A.A.; Sami, A.W.; Faisel, F. and Abd, R.B. (2015). Effect of magnetic water drinking on testis dimension, scrotal circumference and blood parameters of Holstein Bulls Borm in Iraq'. Advances in Animal and Veterinary Sciences, 3(7): 413 – 417.

Irhayyim, T.; Beliczky, G.; Havasi,M. and Bercsenyi (2019). Water quality and growth performance  of  fish   under  the  exposure   effect   of  electromagnetic   fields 'https://haaki.naik.hu,2:9-33J.

Khudiar K, and Ali, A.M. (2012). Effect of magnetic water on some physiological aspects of adult male rabbits. In Proceeding of the Eleventh Veterinary Scientific Conference Pp.120-126.

Konsowa, A.H (2007). 'Ecological studies on fish farms of El-Fayoum depression'.

Krzemieniewski, M.; Debowski, M.; Janczukowicz, W. and Pestal, J. (2003). Changes of  tab  water  and  fish-pond  water  properties  induced  by magnetic  treatment'. olish Journal of Natural Science, 14:459-474.

Loraine, A., P. E. Huchler, S. ManTech, N. J. Lawrenceville. 22 Oct 2002. Non-chemical Water Treatment Systems: Histories, Principles and Literature Review (PDF). International Water Conference (IWC), Pittsburgh, PA, USA 2002. Retrieved 12 July 2014.

Lowe, S.  (1996).  The mechanism of the vortex water energy system'. Helping Agriculture and The Environment through The21 st century, Fluid energy Australia.

Mannan, M.; Islam, M.S.; Suravi, R.H. and Meghla, N.T. (2012). Impact of water quality on fish growth and production in semi-intensively managed aquaculture farm.' Bangladesh J. Environ. Sci., (23): 108-113.

Mosin, O. and Ignatov, I. (2014). Basic Concepts of Magnetic Water Treatment. European Journal of Molecular Biotechnology, 4 (2): 72-85.

Rosen,  A.D.  (2010). Studies  on  the  effect  of  static  magnetic  fields  on  biological systems'. Piers Online 6 (2): 133-136.

Schreck, C.B. and Moyle, P.B. (1990). Methods of fish biology' American Fisheries Society, Bethesda, Maryland, USA.

Sedigh, E.; Heidari.B.; Roozati,A. and Valipour,A.(2019). The Effect of different intensities static magnetic field on stress and selected reproductive indices of the Zebrafsh (Danio rerio) during acute and sub-acute exposure'. Bulletin of Environmental Contamination and Toxiclogy, 102:204-209.

Tyari, E.; Jamshidi, A. and Neisy, A. (2014).  Magnetic water and its benefit in cattle breeding, pisciculture and poultry'. Advances in Environmental Biology :1031-1037.

Yacout,  M.H.;  Hassan,  A.A.;  Khalcl,  M.S.;  Shwerab,  A.M.;  Abdel-Gawad,  E. and    Abdel-kader,    Y.l.    (2015). Effect    of    magnetic    water    on    the performance   of   lactating   Goats'.J   Dairy   Vet   Anim   Res 2 (5):   00048.DOI:10.15406/jdvar.2015.02.00048

Zhao, W.; Tang, J.; J. Chi, G.; Yu, X. and. LujunBian, L. (2015). Effects of magnetic treatment on growth and immune and digestive enzyme activity in the juvenile sea cucumber Apostichopus japonicus (Selenka)'. Aqua., 435: 437-141.

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